Impact of various anthropogenic disturbances on water availability in the entire Mongolian basins towards effective utilization of water resources

IF 2.7 4区 环境科学与生态学 Q2 ECOLOGY Ecohydrology & Hydrobiology Pub Date : 2023-10-01 DOI:10.1016/j.ecohyd.2023.04.006
Tadanobu Nakayama, Tomohiro Okadera, Qinxue Wang
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Abstract

In Mongolia, overuse and degradation of groundwater is a serious issue. The authors have recently applied a process-based eco-hydrology model, NICE (National Integrated Catchment-based Eco-hydrology) to urban and mining hubs to explicitly quantify spatio-temporal variations in water availability. In this study, NICE was scaled up to the total of 29 river basins in the entire country. The model simulated the effect of past climatic change and human activity on water resources during 1980-2018 there. The model reasonably reproduced observed river discharge with a maximal value during summer rainfall seasons. The simulation also revealed heterogeneous distributions of hydrologic budget and its response to climatic and anthropogenic disturbances. In addition, the authors detected hot spots of groundwater degradation by anthropogenic activity in the national scale. Analysis of relative contribution of environmental factors further clarified the characteristics in these areas and quantified spatio-temporal trends in groundwater level due to the effects of changes in precipitation and various water uses. Generally, the result showed changes in precipitation had a large effect on changes in groundwater levels until 2000. In contrast, the model clarified human activities have recently had a large impact on groundwater level changes. This trend was particularly conspicuous in river basins with urbanization and mining development such as Orkhon, Kharaa, Tuul, Galba, Ongi, Altain Uvur Govi, and Taats River Basins. This methodology is powerful to resolve future competition for water resources in areas with fewer inventory data that could potentially trigger conflicts between urban, mining, industry, herders and local communities.

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各种人为干扰对整个蒙古盆地水资源供应的影响,以实现水资源的有效利用
在蒙古,地下水的过度使用和退化是一个严重的问题。作者最近将一个基于过程的生态水文模型NICE(国家集水区综合生态水文)应用于城市和采矿中心,以明确量化水可用性的时空变化。在这项研究中,NICE被扩大到全国29个河流流域。该模型模拟了1980-2018年过去气候变化和人类活动对水资源的影响。该模型较好地再现了夏季降雨量最大的河流流量观测值。模拟还揭示了水文收支的非均匀分布及其对气候和人为干扰的响应。此外,作者还在全国范围内发现了地下水人为活动退化的热点。环境因子的相对贡献分析进一步明确了这些地区的特征,量化了降水变化和各种用水方式影响下地下水位的时空变化趋势。总体而言,2000年以前降水变化对地下水位变化的影响较大。相比之下,该模型澄清了人类活动最近对地下水位变化产生了很大影响。这一趋势在城市化和矿业发展的河流流域尤为明显,如鄂尔洪、哈拉、图尔、加尔巴、昂吉河、阿尔泰乌乌尔戈维河和塔茨河流域。这种方法对于解决库存数据较少的地区未来的水资源竞争非常有效,这些地区可能会引发城市、采矿、工业、牧民和当地社区之间的冲突。
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来源期刊
Ecohydrology & Hydrobiology
Ecohydrology & Hydrobiology Agricultural and Biological Sciences-Aquatic Science
CiteScore
5.40
自引率
3.80%
发文量
51
期刊介绍: Ecohydrology & Hydrobiology is an international journal that aims to advance ecohydrology as the study of the interplay between ecological and hydrological processes from molecular to river basin scales, and to promote its implementation as an integrative management tool to harmonize societal needs with biosphere potential.
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